The 24 digital I/O feature bit by bit direction programmability as well as buffers for enhanced output current of -15mA (logic 1) / 64mA (logic 0).

The on-board programmable counter/timer circuitry includes a 32-bit counter/timer for A/D and D/A sample timing, as well as a 16-bit counter/timer for general counting, timing, and programmable interrupt functions.

Our advanced Universal Driver software is included free with DMM-32X-AT and all our CPU and I/O boards. Universal Driver provides a programming library that simplifies control of all the board’s features and enables you to develop your application software quickly.

Industry-Leading Auto-Autocalibration Provides Maximum Accuracy

DMM-32X-AT includes Diamond Systems’ patented auto-autocalibration technology. This circuitry enables automatic calibration of the board in response to changes in temperature without requiring any involvement by the user or application program. An on-board microcontroller monitors the board’s temperature and uses on-board calibration circuitry to bring the board into calibration whenever needed, totally automatically. Typical accuracy post-calibration is +/-1LSB. The calibration threshold is set for 5 degrees C, which typically limits measurement errors to only +/-2 to +/-3LSB pre-calibration. Click here to learn more about this advanced technology patented by Diamond Systems.

Quality Design Ensures Reliable Measurements

Quality and precision are evident throughout the design of DMM-32X-AT:

Low-drift circuitry: The reference voltage is the foundation of any A/D board’s accuracy. On DMM-32X-AT, a precision low-drift analog voltage reference chip is used as the basis for the A/D circuit. This low-drift device limits natural measurement errors induced by changes in the ambient temperature of the system.

Auto-Autocalibration: All A/D circuits require occasional calibration to maintain their accuracy. The need is even greater when dealing with wide temperature ranges, since temperature is the largest contributor to analog circuit drift. The auto-autocalibration feature on DMM-32X-AT maintains measurement accuracy to within +/-1LSB typical across its entire operating temperature range. Auto-autocalibration is completely automatic and requires no user input. Click here to learn more about this advanced technology patented by Diamond Systems.

Low noise design: A 16-bit A/D converter measures signals down to the level of tens of microvolts. This extreme sensitivity can be easily swamped by noise from nearby high-speed, high-power digital circuitry such as the CPU. On DMM-32X-AT, careful attention is paid to component placement and trace layout in order to minimize noise in the analog circuitry. Digital and analog circuits are kept separate on the board and are placed over their respective power and ground plane, which are also separated. Digital signals that cross over into the analog region pass through isolating resistors at the transition point to further minimize digital noise effects. In addition, components with high power supply rejection ratio specifications are used in the design to further enhance immunity to power supply noise. This results in low-noise, reliable analog readings for all input voltage ranges.

High bandwidth: The maximum sampling rate of an A/D board is often only achievable when sampling a single channel. Limited bandwidth in the analog input circuit can produce significant errors when conducting high speed sampling across multiple channels, because the input circuit cannot settle on the new input voltage in time to present an accurate signal to the A/D converter. On DMM-32X-AT, this issue has been specifically addressed and tested. The analog circuit bandwidth supports accurate full-speed sampling for a single channel or any number of channels, in all configurations and all input ranges.

Advanced Architecture

At the core of DMM-32X-AT is an FPGA with advanced logic that provides important features needed to get the most out of your system:

The 1,024-sample A/D FIFO ensures reliable performance at any speed in any operating system. It contains a novel programmable threshold that lets you fine-tune the A/D operation to your application needs. For low sample rates, a lower threshold lets you get data sooner, while for high sample rates, a larger threshold prevents excessive consumption of valuable processor bandwidth.

A D/A waveform generator is provided with programmable waveforms and output rates. It can be used with 1, 2, or 4 channels simultaneously.

The on-board EEPROM contains free space that is easily accessible by the user’s application program using our Universal Driver software. This non-volatile storage may be used for any desired function, such as storing key system variables in case of power loss.

A/D Sampling Methods

DMM-32X-AT provides a 3-stage A/D timing system that provides the highest degree of flexibility:

A/D Trigger: The A/D may be triggered in one of three ways: a software command, the on-board programmable clock, or an external trigger. The external trigger is often used to synchronize the A/D with an external event, such as a rotor reaching a particular angular position or a moving object reaching a specified position.

Sampling: Once the trigger is received, the A/D can sample the input signals in several ways. The simplest way is to remain fixed on a single channel for high speed data acquisition. The next option is called multi-channel round robin sampling. The A/D sequences through a selected range of channels one at a time. Each trigger causes the next channel to be sampled; when the last channel has been sampled, the next trigger will start over at the first channel. The third way is multi-channel scan sampling, in which an entire group of channels is sampled in rapid succession on each trigger. This method allows for parallel sampling of multiple channels on essentially identical time bases, so that multiple waveforms or signals can be acquired simultaneously and viewed together.

Data transfer to memory: Once the data is acquired on board, it must eventually be transferred to the computer’s memory for use by the application program. This transfer operation can also be done in several ways. For low-speed applications, the application program can simply read the A/D data after each A/D conversion. For medium speed applications, the data is stored in an on-board 1,024-sample FIFO, and the application can read out a block of data at one time for convenience. For high speed applications, the FIFO is programmed to generate an interrupt when a desired threshold is reached, and an interrupt routine embedded in the software driver reads out the FIFO contents all at once automatically. The FIFO threshold is programmable, so this method can be used for low-speed sampling as well. For low sample rates, a lower threshold lets you get data sooner. For high sample rates, a larger threshold prevents excessive consumption of valuable processor bandwidth and ensures reliable, gap-free performance at full speed in any operating system.

D/A Features

DMM-32X-AT includes 4 12-bit D/A channels. These can be programmed one at a time, or they can be updated simultaneously. Four different output voltage ranges are available with jumper settings.

A waveform generator feature is included on the board. It includes a 1,024-sample data buffer that can be used to store 1, 2, or 4 waveforms, all of which can be output simultaneously. The data is output in frames, where a frame contains one data point for each channel being used. The output rate is programmable using the on-board counter/timer circuit up to a rate of 100,000 frames per second.

Digital and Counter/Timer I/O Features

DMM-32X-AT features 24 digital I/O lines and 2 82C54-type counter/timers just like its predecessor DMM-32X-AT. The I/O lines can be programmed for input or output in groups of 8 bits. In output mode the lines are buffered for enhanced output current capability. All DIO lines feature jumper-selectable pull-up / pull-down resistors as well as ESD protection devices to help prevent field failures.

The counter/timers emulate an 8254. Counter 0 is standalone and can be used for general purpose counting, timing, or timer-based interrupts. Counters 1 and 2 are joined together to provide a 32-bit timer for A/D sample rate control or D/A waveform output control.

Ruggedization for Real World Applications

DMM-32X-AT is tested and guaranteed for -40 to +85şC operating temperature off the shelf. Additional services can enhance the board's ruggedness and reliability: All configuration jumpers can be replaced with hardwired 0-ohm configuration resistors using dedicated footprints on the board for use in high-vibration environments. Optional conformal coating and latching connectors provide additional protection if needed. Contact Diamond Systems for information on these options.

Compatible Upgrade for DMM-32-AT

DMM-32X-AT is designed to be 100% backward compatible with our top-selling DMM-32-AT in features, software, connector pinout, and even configuration jumpers. This provides DMM-32-AT customers with an easy upgrade path for increased performance and reduced cost. Simply install the DMM-32X-AT in place of your DMM-32-AT and experience the benefits of our new board right away.

Universal Driver Software

Universal Driver software provides a high-level programming library for DMM-32X-AT and all of Diamond Systems’ I/O boards, as well as the data acquisition circuitry on our CPU boards. All the features described above are supported with easy-to-use function calls, resulting in a reduced learning curve and shortened application development time. Universal Driver works in Linux, RT Linux, Windows 2000/XP, Windows CE, VxWorks, QnX, and DOS. Application examples and projects are included for each function, each board, and each operating system to provide a quick starting point for learning and development. Click here to learn more.